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SUMMARY:Catalysing Net Zero and Energy Transition Strategies through Therm
 odynamic Principles - Edris Joonaki\, TÜV SÜD UK National Engineering La
 boratory
DTSTART:20240208T113000Z
DTEND:20240208T123000Z
UID:TALK208984@talks.cam.ac.uk
CONTACT:Catherine Pearson
DESCRIPTION:Efficient repurposing of existing oil and gas infrastructure f
 or Carbon Capture\, Utilisation\, and Storage (CCUS) and hydrogen applicat
 ions necessitates careful consideration of challenges\, including potentia
 l inaccuracies in flow measurement and heightened risks of corrosion and r
 ock dissolution leading to gas leakage. These challenges are largely roote
 d in the inherent thermodynamic properties of CCUS and hydrogen systems. H
 ence\, a foundational requirement is a comprehensive understanding of the 
 theoretical and thermodynamic principles governing the entire CCUS process
  and hydrogen economy.\nAddressing these challenges requires the developme
 nt of a robust model capable of accurately predicting properties in H2 and
  CO2-rich streams. Precise determination of critical parameters\, includin
 g density\, speed of sound\, and phase boundaries\, is essential for accur
 ate flow measurement. This approach seeks to establish safer CO2 and hydro
 gen transportation and storage processes by proactively avoiding condition
 s contributing to corrosion and reservoir rock dissolution challenges. An 
 informed and thorough grasp of thermodynamic aspects\, coupled with the cr
 eation of an appropriate prediction model\, will play a critical role in e
 nsuring the success and sustainability of CCUS and hydrogen implementation
 s.
LOCATION:Open Plan Area\, Institute for Energy and Environmental Flows\, M
 adingley Rise CB3 0EZ
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